Effects of Experimental Anterior Knee Pain on Muscle Activation During Landing and Jumping Performed at Various Intensities

in Journal of Sport Rehabilitation

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Jihong Park
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W. Matt Denning
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Jordan D. Pitt
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Devin Francom
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J. Ty Hopkins
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Matthew K. Seeley
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DOI:
https://doi.org/10.1123/jsr.2015-0119
Keywords:
electromyography; joint pain; neural activation; arthrogenic muscle inhibition
In Print:
Volume 26: Issue 1
Page Range:
78–93
Restricted access

Context:

Although knee pain is common, some facets of this pain are unclear. The independent effects (ie, independent from other knee injury or pathology) of knee pain on neural activation of lower-extremity muscles during landing and jumping have not been observed.

Objective:

To investigate the independent effects of knee pain on lower-extremity muscle (gastrocnemius, vastus medialis, medial hamstrings, gluteus medius, and gluteus maximus) activation amplitude during landing and jumping, performed at 2 different intensities.

Design:

Laboratory-based, pretest, posttest, repeated-measures design, where all subjects performed both data-collection sessions.

Methods:

Thirteen able-bodied subjects performed 2 different land and jump tasks (forward and lateral) under 2 different conditions (control and pain), at 2 different intensities (high and low). For the pain condition, experimental knee pain was induced via a hypertonic saline injection into the right infrapatellar fat pad. Functional linear models were used to evaluate the influence of experimental knee pain on muscle-activation amplitude throughout the 2 land and jump tasks.

Results:

Experimental knee pain independently altered activation for all of the observed muscles during various parts of the 2 different land and jump tasks. These activation alterations were not consistently influenced by task intensity.

Conclusion:

Experimental knee pain alters activation amplitude of various lower-extremity muscles during landing and jumping. The nature of the alteration varies between muscles, intensities, and phases of the movement (ie, landing and jumping). Generally, experimental knee pain inhibits the gastrocnemius, medial hamstring, and gluteus medius during landing while independently increasing activation of the same muscles during jumping.

Park is with the Dept of Sports Medicine, Kyung Hee University, Yongin, Republic of Korea. Denning is with the Dept of Health Promotion and Human Performance, Weber State University, Ogden, UT. Pitt, Hopkins, and Seeley are with the Dept of Exercise Sciences, Brigham Young University, Provo, UT. Francom is with the Dept of Applied Mathematics and Statistics, University of California Santa Cruz, Santa Cruz, CA.

Address author correspondence to Matthew Seeley at matt_seeley@byu.edu.
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